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  • What’s the deal with airplane fuel?

  • Have you ever wondered if you can you put jet fuel in a car and make it go faster? Like,

  • a rocket car! Well, the answer is yes and no, because even though at the core, jet fuel

  • and car fuel are similar, they are actually so, so different.

  • Most cars and jets are powered through some sort of combustion. Cars have an internal

  • combustion engine and jets gas turbine engine. Which means they both rely on a heat source

  • or explosion to power the engine. In most cases, this requires some sort of combustible

  • fossil fuel, which of course is derived from oil. But that is where the similarities stop.

  • To understand the differences between jet fuel and car fuel you need to understand oil.

  • The black slick stuff that comes out of the ground. It contains aliphatic hydrocarbons.

  • In other words, molecules of just hydrogen and carbon. But depending on how many hydrogen

  • and carbon atoms there are, the molecules behave differently.

  • When a hydrocarbon chain has only one carbon and four hydrogen, it’s super light and

  • makes methane. As more atoms are added to the chain, naturally the molecule gets heavier

  • alters its properties, becoming another gas. So for instance, two carbon atoms and six

  • hydrogen atoms make ethane (C2H6), propane is C3H8 and butane is C4H10.

  • The C7 to C11 range make gasoline. Airplane fuel is derived from much heavier chains,

  • kerosene, in the C12 to C15 range. These two fuels actually have similar properties but

  • one of the key differences between gasoline and kerosene is their flash point.

  • The main reason airplanes use kerosene is safety. Kerosene has a higher flashpoint then

  • car gas, which means it takes a higher temperature to ignite kerosene. This is important when

  • you have a lot of it and it's around a lot of people, like say a major airport. Kerosene

  • is also easily transported and is readily available around the world.

  • Also, kerosene can stay in liquid form longer at low temperatures, which is important when

  • youre flying thousands of feet in the air when temperature can reach 34 degrees below

  • zero Celsius or more.

  • Now there are two main types of jet fuel depending on where you are in the world, Jet A's and

  • Jet A-1. Jet A is available mostly in the US and has a freezing point of −40 °C,

  • while Jet A-1 is used in the rest of the world. It has a lower freezing point of −47 °C.

  • Frozen jet fuel would be disastrous.

  • And to make quality jet fuel, additives are injected to help stop things like static build

  • up, which can create a spark, an anticorrosive agent, a de-icing agent, and even an antimicrobial

  • agent to stop bacteria and fungus growing and clogging the engine. Obviously, the gas

  • you put in your car doesn’t need all of this.

  • The bottom line is, car fuel and jet fuel are made differently from the start, and your

  • car can’t run on kerosene and doesn’t really need to be prepared for such low temperatures.

  • Also, jet fuel is super expensive, often over $4 a gallon.

  • But even after all that, there is one instance jet fuel and one type of car fuel are actually

  • kind of similar. Turns out jet fuel is a lot like diesel. So much so you can actually power

  • a diesel powered truck with it. (although apparently you might want to add a lubricant).

  • But if you put it in your regular car, it would be just like putting diesel in it, it

  • just kind of stalls out, because of the way diesel engines and gasoline engines differ.

  • Diesel engines compress the fuel at a different ratio than gasoline engines to get the fuel

  • hot. So your car’s gasoline engine just won’t get the jet fuel hot enough to spark.

  • But it still could damage your engine. BUMMER.

What’s the deal with airplane fuel?

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